use crossterm::{ cursor, event::{Event, KeyCode, KeyEvent, KeyModifiers}, execute, style::{Color, Print, PrintStyledContent, SetForegroundColor, Stylize}, terminal::{Clear, ClearType, EnterAlternateScreen, LeaveAlternateScreen}, QueueableCommand, }; use secrecy::SecretString; use std::collections::HashSet; use std::io::{stderr, stdout, Write}; use steamguard::Confirmation; /// Prompt the user for text input. pub(crate) fn prompt() -> String { stdout().flush().expect("failed to flush stdout"); stderr().flush().expect("failed to flush stderr"); let mut line = String::new(); while let Event::Key(KeyEvent { code, .. }) = crossterm::event::read().unwrap() { match code { KeyCode::Enter => { break; } KeyCode::Char(c) => { line.push(c); } _ => {} } } line } /// Prompt the user for a single character response. Useful for asking yes or no questions. /// /// `chars` should be all lowercase characters, with at most 1 uppercase character. The uppercase character is the default answer if no answer is provided. pub(crate) fn prompt_char(text: &str, chars: &str) -> char { loop { let _ = stderr().queue(Print(format!("{} [{}] ", text, chars))); let _ = stderr().flush(); let input = prompt(); if let Ok(c) = prompt_char_impl(input, chars) { return c; } } } fn prompt_char_impl(input: T, chars: &str) -> anyhow::Result where T: Into, { let uppers = chars.replace(char::is_lowercase, ""); if uppers.len() > 1 { panic!("Invalid chars for prompt_char. Maximum 1 uppercase letter is allowed."); } let default_answer: Option = if uppers.len() == 1 { Some(uppers.chars().collect::>()[0].to_ascii_lowercase()) } else { None }; let answer: String = input.into().to_ascii_lowercase(); if answer.is_empty() { if let Some(a) = default_answer { return Ok(a); } else { bail!("no valid answer") } } else if answer.len() > 1 { bail!("answer too long") } let answer_char = answer.chars().collect::>()[0]; if chars.to_ascii_lowercase().contains(answer_char) { return Ok(answer_char); } bail!("no valid answer") } /// Returns a tuple of (accepted, denied). Ignored confirmations are not included. pub(crate) fn prompt_confirmation_menu( confirmations: Vec, ) -> anyhow::Result<(Vec, Vec)> { if confirmations.is_empty() { return Ok((vec![], vec![])); } let mut to_accept_idx: HashSet = HashSet::new(); let mut to_deny_idx: HashSet = HashSet::new(); execute!(stdout(), EnterAlternateScreen)?; crossterm::terminal::enable_raw_mode()?; let mut selected_idx = 0; loop { execute!( stdout(), Clear(ClearType::All), cursor::MoveTo(1, 1), PrintStyledContent( "arrow keys to select, [a]ccept, [d]eny, [i]gnore, [enter] confirm choices\n\n" .white() ), )?; for (i, conf) in confirmations.iter().enumerate() { stdout().queue(Print("\r"))?; if selected_idx == i { stdout().queue(SetForegroundColor(Color::Yellow))?; stdout().queue(Print(" >"))?; } else { stdout().queue(SetForegroundColor(Color::White))?; stdout().queue(Print(" "))?; } if to_accept_idx.contains(&i) { stdout().queue(SetForegroundColor(Color::Green))?; stdout().queue(Print("[a]"))?; } else if to_deny_idx.contains(&i) { stdout().queue(SetForegroundColor(Color::Red))?; stdout().queue(Print("[d]"))?; } else { stdout().queue(Print("[ ]"))?; } if selected_idx == i { stdout().queue(SetForegroundColor(Color::Yellow))?; } stdout().queue(Print(format!(" {}\n", conf.description())))?; } stdout().flush()?; match crossterm::event::read()? { Event::Resize(_, _) => continue, Event::Key(KeyEvent { code: KeyCode::Char('a'), .. }) => { to_accept_idx.insert(selected_idx); to_deny_idx.remove(&selected_idx); } Event::Key(KeyEvent { code: KeyCode::Char('d'), .. }) => { to_accept_idx.remove(&selected_idx); to_deny_idx.insert(selected_idx); } Event::Key(KeyEvent { code: KeyCode::Char('i'), .. }) => { to_accept_idx.remove(&selected_idx); to_deny_idx.remove(&selected_idx); } Event::Key(KeyEvent { code: KeyCode::Char('A'), .. }) => { (0..confirmations.len()).for_each(|i| { to_accept_idx.insert(i); to_deny_idx.remove(&i); }); } Event::Key(KeyEvent { code: KeyCode::Char('D'), .. }) => { (0..confirmations.len()).for_each(|i| { to_accept_idx.remove(&i); to_deny_idx.insert(i); }); } Event::Key(KeyEvent { code: KeyCode::Char('I'), .. }) => { (0..confirmations.len()).for_each(|i| { to_accept_idx.remove(&i); to_deny_idx.remove(&i); }); } Event::Key(KeyEvent { code: KeyCode::Up, .. }) if selected_idx > 0 => { selected_idx -= 1; } Event::Key(KeyEvent { code: KeyCode::Down, .. }) if selected_idx < confirmations.len() - 1 => { selected_idx += 1; } Event::Key(KeyEvent { code: KeyCode::Enter, .. }) => { break; } Event::Key(KeyEvent { code: KeyCode::Esc, .. }) | Event::Key(KeyEvent { code: KeyCode::Char('c'), modifiers: KeyModifiers::CONTROL, }) => { return Ok((vec![], vec![])); } _ => {} } } execute!(stdout(), LeaveAlternateScreen)?; crossterm::terminal::disable_raw_mode()?; return Ok(( to_accept_idx .iter() .map(|i| confirmations[*i].clone()) .collect(), to_deny_idx .iter() .map(|i| confirmations[*i].clone()) .collect(), )); } pub(crate) fn pause() { let _ = write!(stderr(), "Press enter to continue..."); let _ = stderr().flush(); loop { match crossterm::event::read().expect("could not read terminal events") { Event::Key(KeyEvent { code: KeyCode::Enter, .. }) => break, _ => continue, } } } pub(crate) fn prompt_passkey() -> std::io::Result { loop { let raw = rpassword::prompt_password_stdout("Enter encryption passkey: ")?; if !raw.is_empty() { return Ok(SecretString::new(raw)); } } } pub(crate) fn prompt_password() -> std::io::Result { loop { let raw = rpassword::prompt_password_stdout("Password: ")?; if !raw.is_empty() { return Ok(SecretString::new(raw)); } } } #[cfg(test)] mod prompt_char_tests { use super::*; #[test] fn test_gives_answer() { let answer = prompt_char_impl("y", "yn").unwrap(); assert_eq!(answer, 'y'); } #[test] fn test_gives_default() { let answer = prompt_char_impl("", "Yn").unwrap(); assert_eq!(answer, 'y'); } #[test] fn test_should_not_give_default() { let answer = prompt_char_impl("n", "Yn").unwrap(); assert_eq!(answer, 'n'); } #[test] fn test_should_not_give_invalid() { let answer = prompt_char_impl("g", "yn"); assert!(answer.is_err()); let answer = prompt_char_impl("n", "yn").unwrap(); assert_eq!(answer, 'n'); } #[test] fn test_should_not_give_multichar() { let answer = prompt_char_impl("yy", "yn"); assert!(answer.is_err()); } }